SU1178840A1 - Apparatus for shear testing of soil under inclined load - Google Patents

Abstract

DEVICE FOR TESTING THE SOIL ON THE SHIFT BY TILTING LOAD, including the stop, cutting the holder with the lid and the projections, the frame hinged on the ledges of the holder, the force mechanism located between the frame and the stop, and the measuring device, differing from that. / V /// /// 7 / Lmed gm glp that, in order to create only a normal load and maintain a constant normal component during shear tests with an oblique load, the force mechanism is made in the form of a set of springs, and the stop is made curvilinear, the surface of which has the shape of the curve r -. . in the Polya coordinate system, where G is the radius vector, (is the angle of the radius of the vector with the normal to the shear plane; is the initial length of the spring set; VQ is the absolute compression of the spring set by the normal load at d (0, the plane of the curve is perpendicular to the axis the protrusions of the cage, and the projective center of the polar coordinates coincides with this axis, with one end of the force mechanism supported on the protrusions of the cage, and the other interacts with the stop.

Description

 1 The invention relates to laboratory equipment for shear testing of soil; building materials and molding sands and can be used in geological engineering, building and foundry production. The purpose of the invention is to create only a normal load and to maintain a constant normal component during shear tests with an inclined load. Figure 1 is a diagram of the device, side view, figure 2 is the same, in a perspective view. The device contains a stop 1, cutting the clip 2 with the cover 3 and the projections 4, the frame 5 with the power mechanism 6 in the form of a set of springs 7 and 8. The end of the spring 8 facing the stop is equipped with a load-measuring cylinder 9 with a adjusting nut 10 in the form of a supporting bearing and a cable 11 with a regul The cutting sheath 2 has stops 13 to secure the cover 3 on the soil sample 14. The stop 1 is curvilinear, the cat surface is snth cree Sn sn oseL polar coordinate system, where rj is the radius vector, is the angle radius vector with normal to plane shift, G is the initial length of the spring set, d is the absolute compression of the spring set by a normal load at o (0. The plane of the location of the stop 13 is perpendicular to the axis of the protrusions 4 of the cage, and the projective center of polar coordinates coincides with this version. The device works as follows. The soil sample 14 is put on the yoke 2, the lid 3 is laid down and fastened with the limiters 13. The ends of the movable 02 frame 5 with the spring set 7 rest on the tabs 4 of the holder. In this case, the projection of the center of polar coordinates coincides with the axis of the projections. The end of the set of springs 8 is placed in the stop 1. The force-measuring cylinder 9 with the adjusting nut 10 and the cable 11 with the adjusting nut 12 are put on the elastic spring 8. Positioning the frame 5 with the force mechanism 6 is normal to the shear plane, rotating the nut 10 presses the cylinder 9 for a length of and through the springs 7 and 8, only the normal load RQ - (constant spring) is created on the specimen in the cage. Having sustained the load R) NO, the time required by the test procedure, with the help of a nut 12 through the cable 11, tilts the frame 5 at an angle оС to the normal and also holds a certain time at this angle. Oblique load on the sample at an angle of inclination to the normal will be (see Fig.1). RoC to 5-rf. - to Normal component of an oblique load, taking into account the formula (1): Net RdL cos cL k KSHI Net on the load RoC from the corner. while the tangential component of TY by the formula (3) increases with increasing angle cc. The use of this device improves the performance of the tests, as it allows the automatic regulation of a constant normal load.

Fyg.2

Claims (1)

DEVICE FOR TESTING THE GROUND ON SLIDING LOAD LOADS, including an emphasis, a cutting clip with a cover and protrusions, a frame pivotally supported on the protrusions of the clip, a power mechanism located between the frame and the emphasis, and a measuring device, characterized in that, in order to create only normal load and maintaining a constant normal component of shear tests at an inclined load, the power mechanism is made as a set of springs, a stop is curved, the surface of which has the shape of a curve £ T "g ^{1 g} '</ in ^ 6 p lar coordinate system where rjn - radius vector, <£ - radius vector angle with the normal to the shear plane; G is the initial length of the set of prul "in; and ₀ is the absolute compression of the set of springs with normal load at = 0, the plane of the curve is perpendicular to the axis of the protrusions of the cage, and the projective center of the polar coordinates coincides with this axis, while one end of the power mechanism is supported by the protrusions of the cage, and the other interacts with the stop.